TW200941823A - Mesh sheet and housing part for electronic device - Google Patents

Abstract

The mesh sheet of the present invention is a mes sheet in which a metal mesh composed of strips is laminated o a surface of a supporting substrate and which is used by bein applied along a surface of an optional member having a curve surface portion. The metal mesh is configured to have a portio in which a strip, which is positioned between connection point of strips adjacent to each other, is formed of a curved lin so that the metal mesh absorbs stress against deformation an can be disposed along the curved surface portion having a larg curvature without being damaged.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a frame body of various electronic devices such as a mobile terminal such as a television or a mobile phone, and more specifically, it relates to a use. A mesh sheet of a housing component of an electronic device having a function of transmitting or receiving an antenna of a ground wave or a satellite, or a touch panel of a capacitance type.先前 [Prior Art] 10 BACKGROUND OF THE INVENTION It is known to have a frame body of an electronic device having an antenna such as an antenna or a capacitance type touch panel. For example, Patent Document 1 (International Publication No. WO/2006/106982) discloses a frame member of an electronic device having a resin molded article as a main constituent layer and having an opaque decorative portion, and is decorated with a decorative portion 15 The front side of the layer has an antenna pattern having a planar shape and a light transmittance of 70% or more, and the conductive portion of the antenna pattern is composed of a conductive film of a mesh structure, and the outline of each mesh is formed by a thin strip of approximately equal width. . As shown in FIG. 34, the frame member is bonded to the resin molded article 201 by a mesh sheet 200 having a metal mesh having a bandwidth of 30 μm or less or less and having a transmittance of 70% or more on the transparent supporting film. Composition. The metal mesh set on the mesh sheet 200 has a mesh pattern as shown in Figs. 35 and 353. The thin strips of the mesh pattern shown in Fig. 35 are arranged in a lattice shape. The regular hexagonal strips of the mesh pattern shown in Fig. 35 are continuously arranged in a honeycomb shape. That is, the mesh sheet 200 has a mesh shape formed by a polygon. 3 200941823 A continuous mesh pattern. The bonding of the mesh sheet 200 and the resin molded article 2〇1 is carried out by inserting the mesh sheet 200 into a mold and performing in-mold molding. In-mold forming means that the mesh sheet 200 is pre-applied with force and heat, and the mesh sheet is pre-formed (pref〇rm) into a shape of the outer shape of the molded article 201, and then placed in a mold, and then the molten resin is ejected. The method of forming the mold hole in the mold and forming the mesh sheet 200 in the mold into a body with the molten resin yarn. Thereby, the frame member of the mesh sheet is attached to the surface of the resin molded article 201. L· 13⁄4 ^ 10 The invention reveals the problem to be solved by the invention. If the axis (4) is described, the dragon shape is described. 15 The mesh piece is deformed along the outer shape of the frame. At this time, since the elongation of the metal is small, the curved surface having a large curvature is formed (in the case of the second example, when the stress m is applied to the metal mesh to be deformed and broken, the metal mesh is not able to bear the resin molded article. The three-dimensional surface of the rounded portion of 201 is a problem in which the two-dimensional curved surface portion of the portion of the molded article 2 G1 is particularly located in the resin. Therefore, the object of the present invention is to solve the problem: The stress does not destroy the metal mesh. It is provided by providing a mesh piece of a curved surface portion and a frame having a large-sized curvature along the curvature for solving the above-mentioned problems. The present invention is as follows. According to the first aspect of the present invention, a mesh sheet 20 200941823 is provided, and an insulating support substrate surface is laminated with a metal mesh composed of a thin strip, and attached to the surface of any member having at least a three-dimensional curved surface portion. And the user, the metal mesh has (5) a thin strip pattern and a second strip pattern; the first strip pattern is attached to the portion of the three-dimensional curved portion to be parallel to the contour line of the 5 = dimensional curved portion The states are formed in an arc shape and are continuously arranged with a gap therebetween in a direction perpendicular to the contour line direction; and the second thin strip pattern is configured to connect the adjacent first thin strip patterns, and The second thin band pattern existing between the tenth point of the second thin band pattern and the second thin band pattern is curved in the direction of the contour line. The second thin band pattern is a curve. The thin strip system curve of the thin strip pattern means that the strip length of the second strip pattern is longer than the line connecting the adjacent strip strip pattern and the second strip pattern at the shortest distance. In the present invention, the curve is connected by a shortest distance to a line segment of 2 points on the plane, that is, the purpose of removing the straight line, including not only the line segment having the arc but also the curved line segment (ie, the bending line) or a combination thereof. In the second aspect, the mesh sheet of the first aspect is provided, wherein the arrangement pitch of the first fine strip pattern is 0.1 mm or more and 1.0 mm or less. According to the third aspect of the present invention, the first or second aspect is provided. 20 pieces of the net recorded in the pattern The bandwidth of the first thin strip pattern and the second thin strip pattern is ΙΟμηη or more and 40 μηι or less. According to the fourth aspect of the present invention, the mesh sheet of any of the first to third aspects is provided, wherein the support is provided. The substrate and the metal mesh are bonded together by a thermoplastic elastomer. 5 200941823 According to a fifth aspect of the present invention, a mesh sheet of any of the first to fourth aspects is provided, wherein the first fine strip pattern is provided. The arrangement pitch is narrowed as it approaches the outer edge of the metal mesh. According to the sixth aspect of the present invention, the mesh 5 mesh of any of the first to fifth aspects is provided, wherein the second thin strip pattern is provided. The bandwidth in the vicinity of the connection point with the first thin strip pattern is wider than the other portions. According to the seventh aspect of the present invention, the mesh sheet of any of the first to sixth aspects is provided, wherein the first thin strip is provided. The pattern has a wavy pattern for allowing the contour of the three-dimensional curved surface portion to be reduced in the direction of the contour. According to an eighth aspect of the present invention, there is provided a mesh sheet according to any one of the first to seventh aspects, wherein the arbitrary member has a two-dimensional curved surface portion, and the metal mesh has a third thin strip pattern and a fourth thin strip pattern. The third thin strip pattern is formed in a straight line shape in a state of being attached to the two-dimensional curved surface portion so as to be parallel to the contour line direction of the two-dimensional curved surface portion, and mutually intersecting each other in a direction perpendicular to the contour line direction. And the fourth thin strip pattern is formed to connect the adjacent third thin strip patterns, and is continuously arranged with a gap therebetween in the contour direction; and is present in the third The fourth thin band pattern between the connection point of the thin strip pattern and the fourth thin strip pattern is a curve. According to a ninth aspect of the present invention, there is provided an eighth aspect of the mesh sheet, wherein the arrangement pitch of the first thin strip patterns in the first 20 is narrower than the arrangement pitch of the third thin strip patterns. According to a tenth aspect of the present invention, there is provided the eighth or ninth aspect of the mesh sheet, wherein the arrangement pitch of the third thin strip pattern is narrowed as approaching an outer edge portion of the metal mesh. According to an eleventh aspect of the present invention, there is provided a mesh sheet which is formed by laminating a metal mesh composed of a thin band on a surface of an insulating supporting substrate made of a resin sheet, and having any member surface having a curved surface portion. Attached to the user, the metal mesh has a unit pattern 5 continuously arranged in a multiaxial direction and a leg portion arranged to connect a plurality of the unit patterns, and is present in the adjacent unit pattern in the adjacent unit pattern The thin band of the unit figure between the connection point of the foot and the unit figure is structured as a curve. According to a twelfth aspect of the present invention, there is provided a mesh sheet according to the eleventh aspect, wherein the fine belt width of the fine belt constituting the metal mesh is configured to be 10 40 μm. According to a thirteenth aspect of the invention, there is provided a mesh sheet of the eleventh or twelfth aspect, wherein the aforementioned support substrate is bonded to the aforementioned metal mesh with a thermoplastic adhesive. According to a fourteenth aspect of the present invention, there is provided a mesh sheet of the thirteenth aspect, wherein the aforementioned support substrate is made of a thermoplastic resin. According to a fifteenth aspect of the present invention, there is provided a mesh sheet of any one of the 11th to 14th aspects, wherein the unit pattern is formed by a closed pattern having the same shape and size. According to a sixteenth aspect of the present invention, there is provided a mesh sheet of a fifteenth aspect, wherein the unit pattern is arranged in a lattice shape along two imaginary axes perpendicularly intersecting, and the foot portion is disposed on an imaginary axis along the perpendicular intersection The thin belt is connected to the unit pattern in the direction. According to a seventeenth aspect of the present invention, there is provided a mesh sheet of the sixteenth aspect, wherein the unit pattern is formed by a closed pattern including an arc. According to an eighteenth aspect of the present invention, there is provided a mesh sheet according to the sixteenth aspect, wherein the unit pattern is formed in a polygonal shape, and the leg portion is formed from at least three vertices of the apex of the polygonal shape. According to a nineteenth aspect of the present invention, there is provided a mesh sheet according to the fifteenth aspect, wherein the unit pattern is arranged in a hexagonal shape along three imaginary axes intersecting at 120°, and the foot portion is formed along the foregoing three The thin belt is connected to the unit figure in the direction of the imaginary axis. According to a twentieth aspect of the present invention, there is provided a mesh sheet according to the nineteenth aspect, wherein the unit pattern is formed by a closed pattern including a circular arc. According to a twenty-first aspect of the present invention, there is provided a mesh sheet according to the nineteenth aspect, wherein the unit pattern is formed in a polygonal shape, and at least three vertices of the polygonal vertices form the aforementioned leg portion. According to a twenty-second aspect of the present invention, there is provided a mesh sheet which is laminated on a surface of an insulating base material composed of a resin sheet and laminated with a thin strip of 15 metal mesh, and attached to the surface of any member having a curved surface portion. In addition, the user has the above-mentioned metal mesh having a leg portion formed by the aforementioned thin band having a non-divided curve. According to a 23rd aspect of the present invention, there is provided a mesh sheet which is a 20-mesh mesh in which a surface of an insulating base material composed of a resin sheet is laminated with a thin band, and which is attached to the surface of any member having a curved surface portion. In addition, the metal mesh has a unit pattern of a closed pattern continuously arranged in one axial direction and a leg portion configured to connect a plurality of the unit patterns. According to a twenty-fourth aspect of the present invention, there is provided a frame member for an electronic device comprising a resin 200941823 molded article to which a mesh sheet of any of the first to third aspects is attached. Advantageous Effects of Invention 5 ❹ 10 15 ❿ 20 According to the mesh sheet of the first aspect of the present invention, since the second thin strip pattern is structured in a curved line, the second fine strip pattern can absorb the elongation in the narrowing direction, thereby preventing the formation of the metal mesh. The broken line of the thin belt. Therefore, the mesh sheet can be attached along the curved surface portion having a large curvature without damaging the metal mesh. Further, according to the eleventh aspect of the invention, in the mesh sheet, when the stretching force is applied to the metal mesh, the stress applied to the thin band constituting the unit pattern is relaxed, and the degree of bending of the curved portion is relaxed to spread the entire mesh pattern. Therefore, even when the support substrate constituting the mesh sheet is stretched, the mesh pattern is stretched, and the mesh sheet itself can be stretched without the metal tape constituting the mesh sheet being cut. Further, by ordering the fine mesh of the metal mesh to be 40 μm or less, the metal mesh can be easily visually recognized, and a mesh sheet excellent in pattern design can be formed. Further, at this time, it is preferable to constitute the support substrate in a transparent or translucent form. By the thermoplastic adhesive forming the metal mesh and the supporting substrate, the plasticity can be slightly increased by heat, and when the tensile stress is applied to the fine mesh of the metal mesh, the support substrate and the metal mesh are deformed to generate the relative positions of the two. Sliding' can suppress the damage of the thin strip of metal mesh. Further, at this time, the support substrate is also made of a thermoplastic resin, and the plasticity can be further increased, and the breakage of the deformation of the tensile stress can be suppressed. The unit pattern should be composed of closed patterns of the same shape and size, and arranged in a 2-axis or 3-axis direction perpendicularly intersecting, so that the unit figures can be closely arranged to reduce the density of the metal mesh. Thereby, the metal mesh can be visually inconspicuous. 9 200941823 In addition, by forming a circular shape in the unit figure, there is a circular arc between the two connection points, which can easily realize the thin band of the curve. Furthermore, the unit pattern is polygonal, and the connection points are arranged at least at three vertices, so that the two adjacent sides of the polygon are used as the thin strips existing between the connection points, and the thin strip of the curve can be simply realized. BRIEF DESCRIPTION OF THE DRAWINGS These and other objects and features of the present invention will become apparent from the following description of the appended claims. In the drawings, Fig. 1A is a perspective view showing the appearance of the frame of the mobile phone terminal of the line 10 of the first embodiment of the present invention, and Fig. 1B is a mobile phone shown in Fig. 1A. Cross-sectional view of the frame part A1-A1 of the terminal machine, - Fig. 2 is a cross-sectional view showing the schematic structure of the mesh piece according to the first embodiment of the present invention, and Fig. 3 is a photo-etching method. The step chart of the mesh piece of the first embodiment,

Fig. 4 is an explanatory view showing a flat portion, a two-dimensional G curved surface portion, and a three-dimensional curved surface portion block in the planar view of the resin molded article, and Fig. 5A shows a contour line attached to the metal mesh of the two-dimensional curved surface portion. Fig. 5B is a graph showing the elongation in the direction of the contour line and the contraction direction of the metal mesh attached to the three-dimensional curved surface portion, and Fig. 6 is a view showing the mesh of the first embodiment of the present invention. Plan view of the metal mesh structure of the sheet ' 10 200941823 Fig. 7 is an enlarged plan view of a region corresponding to the two-dimensional curved surface portion of the metal mesh shown in Fig. 6, and Fig. 8 corresponds to the metal mesh shown in Fig. 6 An enlarged plan view of a region of the three-dimensional curved surface portion, FIG. 9 is an enlarged plan view showing a structure of a connecting portion corresponding to a region of the two-dimensional curved surface portion of the metal mesh shown in FIG. 6 and a region of the three-dimensional curved surface portion, FIG. A plan view showing a design example of a φ electrode for energization in a metal mesh shown in Fig. 6, and Fig. 11 is a plan view showing a design example different from the first drawing, Fig. 12A FIG. 12B is a plan view showing a second modification of the mesh pattern of the metal mesh, and FIG. 12C is a third modification of the mesh pattern of the metal mesh. Fig. 12A is a plan view showing a fourth modification of the mesh pattern of the metal mesh, and Fig. 13A is a view showing the first part of the frame of the mobile phone terminal having the mesh of the first embodiment of the present invention. FIG. 13B is a cross-sectional view showing a second modification of the housing component of the mobile phone terminal having the mesh sheet according to the first embodiment of the present invention, and FIG. 13C is a first embodiment of the present invention. Cross-sectional view of a third modification of the housing component of the mobile phone terminal of the embodiment of the present invention. 11 200941823 13D is a frame body part of a mobile phone terminal having a mesh piece according to the first embodiment of the present invention. Section 3E is a cross-sectional view showing a fifth modification of the housing component of the mobile phone terminal having the mesh sheet according to the first embodiment of the present invention, and FIG. 13F. A cross-sectional view showing a sixth modification of the housing component of the mobile phone terminal device having the mesh sheet according to the first embodiment of the present invention, and a thirteenth Gth diagram showing a mobile phone terminal having the mesh sheet according to the first embodiment of the present invention. Fig. 13H is a cross-sectional view showing an eighth modification of the housing member of the embodiment of the mesh sheet of the first embodiment of the present invention, the first embodiment of the present invention, The figure shows a cross-sectional view of a ninth modification of the housing component of the mobile phone terminal device having the mesh sheet according to the first embodiment of the present invention, and Fig. 13J shows a line of the mesh film according to the first embodiment of the present invention* A cross-sectional view of a tenth modification of the frame member of the mobile phone terminal, 15 FIG. 14A shows a mesh piece in which the arrangement pitches of the thin band patterns arranged in parallel in the direction of the contour of the two-dimensional curved surface are equally spaced. An enlarged plan view of the mesh pattern of the metal mesh at the time of the two-dimensional curved surface, © Figure 14B shows the arrangement of the thin strip patterns arranged in parallel in the direction of the contour of the three-dimensional curved surface at equal intervals. An enlarged plan view of a mesh pattern of a metal mesh when the eye piece is attached to the three-dimensional 20 curved surface portion, and FIG. 15 shows a region corresponding to the three-dimensional curved surface portion of the metal mesh which the mesh piece corresponding to the modified example of the present invention corresponds to An enlarged plan view of a mesh pattern of a joint portion of a region of a curved surface portion, and Fig. 16 is an enlarged plan view showing a mesh pattern of a region of a three-dimensional curved surface portion of a 12 200941823 metal mesh corresponding to a mesh sheet according to a modification of the present invention, 17 is an enlarged plan view showing a structural example of a connecting portion of a thin strip pattern which is arranged in parallel in the direction of the contour line and a strip pattern which is connected to the adjacent strip pattern, 5 Ο 10

15 Q 20 FIG. 18A is a perspective view showing a frame appearance structure of a mobile phone terminal using a mesh sheet according to a second embodiment of the present invention, and FIG. 18B is a cross-sectional view taken along line A2-A2 of FIG. 18A, 19 is a cross-sectional view showing a schematic configuration of a mesh sheet according to a second embodiment of the present invention, and FIG. 20 is a step view showing a mesh sheet according to a second embodiment of the present invention by photolithography, and FIG. 21A is for the 19th. The first structural example of the mesh pattern of the metal mesh of the mesh of the figure, the 21st image is a partial enlarged view of the mesh pattern of the 21st image, and the 22A is the enlargement of the unit graphic before the mesh of the 21st image. Photograph, Fig. 22B is a magnified photograph of the unit figure after the web of FIG. 21A is stretched, and Fig. 23 is a second structural example of the mesh pattern of the metal mesh used for the mesh sheet of Fig. 19, Fig. 24A An enlarged photograph of the unit figure before the extension of the mesh sheet of Fig. 23, and Fig. 24B is an enlarged photograph of the unit figure after the extension of the mesh sheet of Fig. 23, 13 200941823 Fig. 25 shows the mesh sheet for the 19th figure Metal mesh In the third configuration example, the figure 26 shows the state of the deformation before and after the extension of the mesh sheet of Fig. 25, and Fig. 27 shows the fourth structural example of the mesh pattern of the metal mesh used for the mesh sheet of Fig. 19. Figure 28 shows the fifth structural example of the mesh pattern for the metal mesh of the mesh sheet of Fig. 19, and Fig. 29 shows the mesh 13 10 graphic for the metal mesh of the mesh image of Fig. 19. In the sixth structural example, the thirty-fifth figure shows the seventh structural example of the mesh pattern for the metal mesh of the mesh sheet of Fig. 19, and the '31st image shows the metal mesh for the mesh of the 19th figure. Mesh - the eighth structural example of the graphic, 15 Fig. 32 shows the ninth structural example of the mesh pattern for the metal mesh of the mesh sheet of Fig. 19, and the 33A image shows the mesh pattern extending into a line shape. In the case of the structure, φ 33B shows a structure example of a mesh pattern extending in a line shape, and Fig. 34 shows a state in which the mesh sheet and the resin molded article are bonded, and 20 Fig. 35A shows a conventional mesh sheet. The first structural example of the mesh pattern, the 35B drawing shows the use for the habit Mesh pattern of the mesh sheet of the second configuration example of those. BEST MODE FOR CARRYING OUT THE INVENTION Before the description of the present invention is continued, the same reference numerals are attached to the same parts in the drawings. Hereinafter, embodiments of the present invention will be described with reference to the drawings. [First Embodiment] The frame member having the mesh sheet according to the first embodiment of the present invention can be used as an antenna for a smashing telephone terminal or a capacitive touch panel. In this example, the frame member is described as an h-line mobile phone terminal 10. 1A1I is a perspective view showing a frame appearance structure of a mobile phone terminal having a mesh sheet according to a third embodiment of the present invention, and the frame is a frame part of the mobile phone terminal of the second embodiment. And B plane) line cut off the wearing map. In the frame member 1 shown in Figs. 1A and 1B, an antenna pattern formed of a mesh sheet 1 is formed on the inner surface of the resin molded article 2 of an arbitrary member. As shown in Fig. 1A, the resin molded article 2 has a container-like member that allows the transparent window portion 4 to be visually recognized by a display unit such as a liquid crystal display provided in a mobile phone terminal. The edge portion 3 of the resin molded article 2 is bent into a two-turned arch shape over the entire circumference. Thereby, the resin molded article 2 forms the flat portion 5A at the center portion, and forms the two-dimensional curved surface portion 5B and the three-dimensional curved surface portion 5C at the edge portion 3. The flat portion 5A is a portion parallel to the plane of the Χγ. The two-dimensional curved surface portion 5B is curved in an arch shape in a section cut in the XZ plane, and a straight section is cut in a section cut in the YZ plane. The three-dimensional curved face 5C is a section cut by a χζ plane and a section cut by a Ζ Ζ plane is 15 Arched. The resin molded article 2 is formed into a shape of a desired frame member. The resin can be used as the material of the product 2, and polycarbonate, polyethylene naphthalate, polyethylene terephthalate, triethylenesulfonyl cellulose, acrylonitrile butadiene styrene 5 can be used. Resin material such as copolymer. The transparent window portion 4 can be integrally formed with other portions of the resin molded article 2 by a method such as two-color molding. Further, the transparent window portion 4 may be formed by inserting another transparent resin molded body into the opening portion of the transparent window portion 4 of the resin molded article 2. The mesh sheet 10 has a planar shape and a light transmittance of 7〇% or more. The mesh sheet 1 is attached to a region where the inner surface of the resin molded article 2 is large, and is attached to the inner surface of the one-dimensional curved surface portion 5B and the three-dimensional curved surface portion 5C. In the mesh sheet 10, when the resin molded article 2 is molded, the mesh sheet 1 is sandwiched between the mold and the mold is closed, and the molten resin can be ejected into the cavity of the mold to adhere to the surface of the resin molded article 2. The mesh sheet 10 sandwiched into the mold may also be preliminarily formed into a shape along the surface of the cavity. This preforming can be carried out by heating the mesh sheet 1 while using a pressurizing device for pre-forming (not shown) or the like. The mesh sheet 10 can be deformed by the pressing force of the pressurizing device or the injection pressure of the molten resin. In particular, the portion corresponding to the three-dimensional curved surface portion 5C of the resin molded article 2 will be described in detail later, and the amount of deformation is increased. 20 Fig. 2 is a cross-sectional view showing the schematic structure of the mesh sheet 10. The mesh sheet 1 has a structure in which a metal mesh 13 is laminated on the surface of the insulating sheet 11 which is made of a transparent or translucent resin. An adhesive 12 mainly composed of a thermoplastic resin can be used for the adhesion between the support sheet 11 and the metal mesh 13 . As the support sheet 11, a polypropylene resin, a polycarbonate resin, a polyethylene 16 200941823 olefin resin, a polyamide resin, a polyester resin, a polyacryl resin, a polyvinyl chloride resin, an acrylonitrile-butyl can be used. A resin sheet such as a di- styrene copolymer resin. Next, the layer 12 is preferably made of a material which is slightly increased in plasticity by the heat applied during preforming or when the molten resin is ejected. Specifically, the mesh sheet 10 is heated to about 180 at the time of preforming or when the molten resin is ejected. (: left and right, so the layer 12 should be made of a propylene-based material which is plastically increased at the same temperature. Further, the layer 12 should be slightly thicker to about 3 〇 5 5 μm (usually about 20 μm left © right). When the adhesive layer 12 applies stress to the fine strip of the metal mesh 13, 10 is deformed between the support film 11 and the metal mesh π, and the sliding of the relative positions of the two is generated, and the breakage of the fine strip of the metal mesh 13 can be suppressed. In this case, when the support film 11 is also made of a thermoplastic resin, the breakage of the fine mesh of the metal mesh " 13 can be further suppressed. The metal mesh 13 is a metal ribbon such as copper, nickel, aluminum, gold or silver. After that, it is explained in detail that it is constructed into a fine mesh pattern. The metal mesh 13 is opaque, and since the thin ribbon is extremely fine, it is constructed so that the 'Gold® mini-strip can only recognize a slight level of change without causing a change. The pattern design of the resin molded article 2 is impaired. Further, since the metal mesh 13 is formed along the entire frame, a larger area can be used as an antenna, and the receiving sensitivity can be improved by 20 degrees. Further, since it is formed in three The directivity can also be reduced on the curved surface portion 5C. Further, the mesh sheet may be provided on the transparent window portion 4 as shown in Fig. 1 or in a portion not including the transparent window portion 4. Metal mesh 13 It can be formed by etching a metal 羯 of a thickness of about ΙΟμηι, or by etching with a printed resist. This 17 200941823 is a damaged resin molded article when the bandwidth of the thin metal mesh 13 is too wide. The design of the pattern of 2, the other side, because the hour is too difficult, the above rhyme is difficult, so it should be above ΙΟμιη, 4 〇 or less. Also, when the arrangement of the fine strips of the metal mesh 13 is too wide, the resin is damaged. The reason why the pattern of the product 2 is set to 5 is 'other-face'. When it is too narrow, the front secret is difficult, so it should be 0.1mm or more and 1.0mm or less. s When the metal mesh 13 mesh pattern is formed by light money First, as shown in Fig. 3, gold n 10 na is attached to the surface of the supporting film 11. Further, in Fig. 3, the description of the bonding layer 12 is omitted. a photoresist film is formed on the foil 13a (not shown) Then, by using a photomask, exposing, and developing with a developing liquid, a mesh pattern of the photoresist film can be formed. Then, the photoresist film is peeled off by the engraving of the surname, and the photoresist film can be peeled off. Metal mesh 13 of a mesh pattern composed of a metal strip. Next, the structure of the mesh pattern of the metal mesh 13 will be described in more detail. ❹ The above-mentioned 'mesh sheet 10 is deformed at the time of preforming or when molten resin is emitted, in particular In the portion corresponding to the three-dimensional curved surface portion 5 of the resin molded article 2, the amount of deformation is increased. However, the resin-made support sheet can withstand a large deformation, whereas the metal mesh 13 cannot withstand large deformation. When the deformation - above the degree (elongation), there is a problem of fine broken lines. In the first embodiment, in order to solve the problem of the disconnection, the problem can be solved by the mesh pattern of the metal mesh 13. 18 200941823 Fig. 4 is an explanatory view showing a flat portion, a two-dimensional curved surface portion 5B, and a three-dimensional curved surface portion 5C partition block when viewed in plan view of the resin molded article 2. In Fig. 4, D1 indicates the direction in which the line connecting the position equal to the height of the flat portion 5A is extended (hereinafter referred to as the contour line direction), and the line of defense indicates that the lines intersect perpendicularly in the direction of the line 5, and along the second line. The direction of the curved surface of the dimension curved surface portion 5B or the three-dimensional curved surface portion 5C (hereinafter referred to as the expansion and contraction direction). The first figure shows the contour: the contour line 〇1 and the expansion side of the metal mesh attached to the two-dimensional curved surface portion 5B

Fig. 1B is a graph showing the elongation to D2, and Fig. 5B is a graph showing the elongation in the contour direction D1 and the stretching direction D2 of the metal mesh attached to the three-dimensional curved surface portion SR 。. Further, in Figs. 5A and 5B, the shallow portion of the stretched portion refers to a portion close to the side of the flat portion 5A, and the deep portion of the stretched portion is away from the side of the flat portion 5, that is, the portion on the outer edge side of the metal mesh. That is, as the distance toward the right side of the figure increases, the distance from the flat portion 5A increases. As can be seen from the fifth graph, in the two-dimensional curved surface portion 58, the extension of the metal mesh 13 is not generated in the contour direction Di, and the metal is expanded in the expansion and contraction direction D2. Mesh 13 produces an extension of approximately 10%. Further, as is clear from Fig. 5B, in the three-dimensional curved surface portion 5 (^, ® in the contour line direction D1 'the metal mesh 13 is reduced by about 1%, and in the expansion and contraction direction D2', the metal mesh 13 is elongated by about 20%. In Fig. 4, the two-dimensional curved surface portion 5B and the three-dimensional curved surface portion 5C have a plurality of points, and the tendency of the elongation is substantially the same regardless of the two-dimensional 20 curved surface portion 5B and the three-dimensional curved surface portion 5C. The mesh pattern of the metal mesh 13 of the mesh sheet of the embodiment. Fig. 6 is a plan view showing the structure of the metal mesh 13 of the mesh sheet 1 of the first embodiment. As shown in Fig. 6, the metal mesh 13 is constructed as The mesh pattern is different in the region 20A corresponding to the flat portion 5A of the flat 19 200941823, the region 20B corresponding to the two-dimensional curved surface portion 5B, and the region 20C corresponding to the three-dimensional curved surface portion 5C. In the region 20A, the elongation of the metal mesh 13 is almost Therefore, the mesh pattern disposed in the region 20A is formed in the same shape as the conventional one, for example, a lattice shape. Fig. 7 is an enlarged plan view of the region 20B, and Fig. 8 is an enlarged plan view of the region 20C, and Fig. 9 shows Area 20 An enlarged plan view showing the structure of the connecting portion of the portion B and the region 20C. When the mesh sheet 10 is attached to the resin molded article 2^10 as described above, the elongation of the metal mesh 13 is hardly generated in the contour line direction D1. In the direction D2, the metal mesh 13 is reduced by about 10%. Therefore, as shown in Fig. 7, a linear thin strip pattern is formed in a state parallel to the contour line 〇1 of the two-dimensional curved surface portion 5B (third thin) The pattern 31 is continuously arranged, and the adjacent thin strip patterns 31 and 31 are connected in a l-shaped thin strip pattern (fourth thin strip pattern) 32. Thereby, the thin strip pattern 32 has a telescopic leg portion. The function, the L-shaped portion of the thin strip pattern 32 has a large bending angle, can absorb the elongation of the stretching direction (1), and can prevent the broken line from being broken. Therefore, the one-dimensional surface can be along the one-dimensional surface without damaging the metal mesh φ 13 In the third region 20C, as described above, when the mesh sheet 1 is attached to the resin-molded 20 product 2, the metal mesh 13 in the contour direction D is reduced by about 10% in the telescopic direction D2. 'Metal mesh 13 produces an elongation of about 2%. Therefore, as In the figure 8, the thin strip pattern (the second thin strip pattern) 33 which is formed in an arc-like state parallel to the contour line 〇1 of the three-dimensional curved surface portion 5C is continuously arranged, and the adjacent thin strip pattern 33' is arranged. 33 is connected by an L-shaped thin strip pattern (second thin strip pattern 20 200941823 shape) 34. Thereby, the thin strip pattern 34 has a function as a telescopic leg portion, and the L-shaped portion of the thin strip pattern 34 has a large bending angle. The elongation of the stretching direction D2 can be absorbed, and the breakage of the thin strip can be prevented. Therefore, the mesh sheet can be attached along the three-dimensional curved surface portion 5C without damaging the metal mesh 13. 5 Ο 10 15 ❹ 20 When the mesh sheet 10 having the above configuration is used for a mobile terminal, as shown in Fig. 00, the energizing electrode 41 and the slits 42 and 43 may be formed. In other words, the mesh pattern is divided into a plurality of wiring portions by the slits 42, and the grid-like mesh pattern of the second region 2〇α is appropriately formed _43, and the divided wiring portion and the current-carrying electrode 41 located in the first region 20A are appropriately formed. Electrical connection is sufficient. In addition, electricity (4) should be placed in the old domain. When the electrode for electricity supply _ has been placed in the second region 20 Β or the third region 2GC, the resin is deformed by 11 A at the time of preforming or when the molten resin is emitted. Therefore, the electrode size of the current is also deformed. Therefore, it is difficult for the energization electrode to be called an energized component such as an Fpc disposed thereon. Further, the connection between the wiring portion and the current-carrying electrode 41 may be performed by the thick-band wiring 44 as shown in the figure, instead of the lattice-like mesh pattern. In addition, this cut is not limited to the previous (four) sturdy face, but also implemented in various other ways. For example, in the foregoing, the thin band disposed in the metal mesh-like third region 5C is thin and has a red shape, and the present invention is not secret. The thin strip pattern 34 may be any one of the arc-shaped thin strip patterns that can be adjacent to the curve. For example, the thin strip_34 may have a circular arc shape as shown in the figure, or may be a wave line as shown in Fig. 12B. X, the thin strip pattern 34 can also be formed by combining two L-shaped thin strips as shown in the first sinker map and the 12th graph. That is, as long as the length of the thin strip of the second thin strip_34 is longer than the connection point between the shortest distance connecting 21 200941823 and the adjacent thin strip patterns 33, 33 and the second thin strip pattern 34. Further, in the foregoing, the thin strip pattern 34 has been described, and the thin strip pattern 32 disposed in the second region 5B of the metal mesh 13 is also the same. In other words, the thin strip pattern 32 may be connected to the adjacent linear strip patterns 31 and 31 by a curved line. Further, as shown in Fig. 2, the resin molded article 2 and the mesh sheet 10 constitute the frame member 1, and the present invention is not limited thereto. For example, as shown in Fig. 13a, in order to prevent oxidation or damage of the metal mesh 13, a protective sheet 14 may be provided on the surface of the mesh sheet 10. The protective sheet 14 can be made of polycarbonate, polyethylene naphthalate, poly(p-vinyl phthalate), acrylonitrile-butadiene-styrene copolymer having a thickness of about 0.1 mm to 0.5 mm. A resin sheet such as a substance. Further, as shown in Fig. 13B, the resin molded articles 2, 2A may be formed by two-color molding on both surfaces of the mesh sheet 1 . At this time, the oxygenation or damage of the metal mesh 13 can be prevented and the strength of the frame member 1 can be enhanced. The thickness of the resin molded article 2A is about 1.0 mm. Further, as shown in Fig. 13C, the mesh sheet 10 may be provided on the outer surface of the resin molded article 2 instead of the inner surface of the resin molded article 2. Further, as shown in Figs. 13D to 13G, the decorative layer 6 may be provided on the surface of the resin molded article 2 or the mesh sheet 10 as an opaque decorative portion. Further, as shown in Fig. 13H to © Fig. 13J, the decorative layer 6 may be provided between the resin molded article 2 and the mesh sheet 1〇. The method of forming the decorative layer 6 can be carried out by using a transcription method, a simultaneous molding transcription method, a molding simultaneous decoration method, a painting method, or the like. The transcription method is used to form a transcription material of a transcription layer composed of a release layer, a decorative layer, an adhesive layer, or the like on a substrate sheet, and the substrate is peeled off by heat and pressure to adhere the transcription layer to the transcribed material, and only the transcription is performed. The method of transferring the surface to the surface to be transcribed and decorating it. Further, 22 200941823 5 ❹ 10 15 20 20 Forming and simultaneous transcripting The transcript is sandwiched into a forming mold, the resin is injected into the cavity, and after cooling, a resin molded article is obtained, and at the same time, the transcript is attached to the surface. Thereafter, the substrate sheet is peeled off, and the transcription layer is transferred to the surface of the transcribed object to decorate the substrate. Further, the arrangement pitch of the thin strip patterns 31 and 33 arranged in parallel with the contour line direction D1 is preferably set to be equal to each other before being bonded to the resin molded article 2, and is equally spaced after being bonded to the resin molded article 2. When the arrangement pitch of the thin strip patterns 31 and 33 is changed after being bonded to the resin molded article 2, not only the pattern design property of the resin molded article 2 is impaired, but also the frame member 1 is used as a capacitive touch panel. At the same time, even if the same area is pressed, the electrostatic capacity differs depending on the pressing position. Therefore, there is a problem that the function as a touch panel cannot be fully utilized. Fig. 14A is a view showing a mesh of the metal mesh 丨3 when the mesh pattern 1 of the thin strip patterns 31 arranged in parallel in the direction of the contour line of the two-dimensional curved surface portion 5B is equally spaced and attached to the two-dimensional curved surface portion 5B. An enlarged plan of the graphic. Fig. 14B is an enlarged view of the mesh pattern of the metal mesh 13 when the meshes 1 of the thin strip patterns 33 arranged in parallel in the contour line direction D1 of the three-dimensional curved surface portion 5C are equally spaced and attached to the three-dimensional curved surface portion 5C. Floor plan. When the mesh sheet 10 is attached to the two-dimensional curved surface portion 5B or the three-dimensional curved surface portion 5C, the fifth and fifth panels are used. As described above, the metal mesh is formed toward the outer edge portion of the mesh sheet 10 as it extends toward the deep portion. The elongation of 13 has a tendency to expand. Therefore, as shown in Figs. 14A and 14B, the arrangement pitch of the thin strip patterns 31, 33 is gradually increased, and the arrangement pitch of the thin strip patterns 31, 33 is uneven. Therefore, it is preferable to consider the elongation of the metal mesh 13, and set the arrangement pitch of the thin strip patterns 31, 33 before being attached to the resin 2 200941823. Specifically, the arrangement pitch of the thin strip patterns 31 and 33 may be narrowed as it approaches the outer edge portion of the metal mesh 13. Thereby, the arrangement pitch of the thin strip patterns 31 and 33 after the attachment can be made equal. Further, when the mesh sheet 10 attached to the two-dimensional curved surface 5B or the three-dimensional curved surface portion 5C is viewed from the vertical direction, the two-dimensional curved surface portion 5B or the three-dimensional curved surface portion 5C is a curved surface, so that the interval between the mesh sheets 10 seems to be narrow to be far away. Viewpoint. At this time, the aforementioned arrangement pitch seems to have a pitch, which is detrimental to design. On the other hand, when the arrangement pitch of the thin strip patterns 31 and 33 is a narrow pitch of about 0.1 mm, the electrostatic capacitance is less likely to occur due to the above-described pressing position. Therefore, when the pattern design property is emphasized, the arrangement pitch of the thin strip patterns 31 and 33 can be made larger as it approaches the outer edge portion of the metal mesh 13. Further, as described above, the elongation of the metal mesh 13 is larger when it is bonded to the three-dimensional curved surface portion 5C than when it is bonded to the two-dimensional curved surface portion 5B. Therefore, when the strip pattern 33 and the arrangement pitch are the same as the row 15 pitch of the strip pattern 31 before the attachment, the arrangement pitch of the attached strip pattern 33 is larger than the arrangement pitch of the strip pattern 31. , resulting in the aforementioned problem of unevenness. Therefore, as shown in Fig. 15, it is preferable that the arrangement pitch of the thin strip patterns 33 is narrower than the arrangement pitch of the thin strips © pattern 31. Thereby, the arrangement pitch of the attached thin strip patterns 31 can be made the same as the arrangement pitch of the thin strip patterns 33. Further, as described above, since the metal mesh 13 is reduced in the contour direction D1 in the three-dimensional curved surface portion 5B, the thin strip pattern 33 receives the compressive force in the contour line direction D1. At this time, when the aforementioned compressive force is concentrated on a portion of the thin strip pattern 33, there is a possibility that the thin strip pattern 33 is broken or greatly deformed beyond the other thin strip patterns. Therefore, as shown in Fig. 16, in order to allow the reduction of the direction D1 of the contour line 24 200941823 of the three-dimensional curved surface portion 5C, the thin strip pattern 33 can be formed into a wavy pattern. By this, it is possible to prevent the aforementioned compressive force from being concentrated on one portion of the thin strip pattern 33, and it is possible to prevent the line breakage of the thin strip pattern 33 and the like. Further, in the drawing, the thin strip patterns 31, 31 are shown to be approximately equal in width, and as shown in Fig. 17, the thin strip pattern 32 near the joint of the strip pattern 31 and the strip pattern 32 is suitable for the width of the strip pattern 32. Thicker than the other parts. Thereby, the connection strength between the thin strip pattern 31 and the thin strip pattern 32 can be enhanced, and the disadvantages such as floating of the thin strip pattern 32 can be prevented. Similarly, the bandwidth of the thin strip pattern 34 near the point of attachment of the strip pattern 33 to the strip pattern 34 is preferably thicker than the other portions. [Second Embodiment] The frame member having the mesh sheet of the embodiment of the second embodiment of the present invention can be used as an antenna of a mobile phone terminal or a capacitive touch panel as in the first embodiment. Here, an example will be described as a mobile phone terminal using a frame component as an antenna. Fig. 18A is a perspective view showing the appearance of a casing of a mobile phone terminal using a mesh sheet according to a second embodiment of the present invention. Fig. 18B is a cross-sectional view taken along line β of Fig. 18A. The frame member ιοί shown in Fig. 18 is a main structural layer of a resin molded article 102 of an arbitrary member, and an antenna pattern formed of a mesh sheet 110 is formed on the surface of the resin molded article 102. As shown in Fig. 18, the resin molded article 102 has a container-like shape having a transparent window portion 104, and is structured such that the periphery of the edge portion 3 serves as a curved curved surface portion 105. The resin molded article 102 is formed into a shape of the frame member 101, and a material thereof may be polycarbonate, acryl, polyethylene terephthalate or triethylsulfonated cellulose. Further, the transparent window portion 104 can be formed by a method such as two-color molding. The structure of the transparent window portion of the resin molded article 102 can be embedded in a transparent member made of another resin molded body. An opaque vibrating portion (not shown) may be provided on the surface of the resin molded article 102. Specifically, it is also possible to provide a decorative layer of 5 layers on the surface of the resin molded article 1〇2. The method of forming the decorative layer may use a transcription method or a simultaneous transcription method. As described above, the transcription method is used to form a transcription material of a transcription layer composed of a release layer, a decorative layer, a subsequent layer or the like on a substrate sheet, and the transcription layer is adhered to the resin molded article 102 of the transcript by heat and pressure. The base sheet is peeled off, and only the green surface is transcribed to the surface to be transcribed, and the method is decorated. The simultaneous transcription method inserts the transcription material into the molding die, causes the resin to be injected into the cavity, and then obtains the resin molded article. At the same time, after the surface is followed by the transcription material, the base substrate is peeled off, and the transcription layer is transferred. The method of decorating to the surface of the transcribed object. The base sheet of the transcript can be made of a resin sheet peeling layer such as a polypropylene resin, a polyethylene resin, a polyamide resin, a polyester resin, a polypropylene resin, or a polyhexene resin. Use of polyacrylic resin, polyester tree ride, polyvinyl chloride resin, cellulose resin, rubber resin, gas-based resin, polyvinyl acetate resin, etc. A copolymer such as a vinyl ester copolymer resin or an ethylene-vinyl acetate copolymer resin. When the hardness is required for the release layer, a radiation curable resin such as a photocurable resin such as an ultraviolet curable resin or an electron curable resin, or a thermosetting resin can be used. The layer is then suitable for use with the sensibility or pressure sensitivity of the material being transcribed 26 200941823 200941823 ❹ 10

Resin. For example, a polyacrylic resin can be used as the material of the transcript. Further, when the polyacrylic resin is used, the polymer, the polyarylene-based resin, the material is a polystyrene resin, the vinegar resin, and the styrene-based polyacrylic acid. Resin, polystyrene _= with these resins, affinity resin, ruthenium resin, and the like. On the surface of the resin molded article 102, a mesh sheet UQ having a planar shape and having a light transmittance of 鸠 or more is attached. The mesh sheet m is formed in a region where the surface of the resin molded product 1〇2 is large, and is also provided on the surface of the curved surface portion 1〇5. The mesh sheet 11G has a metal mesh U3 composed of a gold ribbon having a mesh pattern as will be described later. Since the metal mesh 113 is opaque and constructed to be extremely fine, in the first place, it is impossible to recognize the slight change in the level of the metal extremely thin band without impairing the pattern designability of the resin molded article 102. Moreover, a larger area can be used as an antenna, and reception sensitivity can be improved. Further, the mesh sheet 110 may be provided to the surface of the transparent window portion 104 for the display. The mesh sheet 110 is attached to the surface of the resin molded article 102 in the following steps. In the case where the resin molded article 102 is molded, the mesh sheet 11 is sandwiched between the mold and the mold, and the mold is closed, and the molten resin is ejected into the cavity. With this configuration, the mesh sheet 110 having the shape of the cavity surface is in close contact with the molten resin, and the mesh sheet 11 can be attached to the surface of the resin molded article 102. Further, the mesh sheet 11 夹 sandwiched in the mold may be preliminarily formed into a shape along the cavity surface. The preforming is performed by heating the mesh sheet 110 while using a pressurizing device for preforming or the like. The mesh sheet 11 is deformed by the pressing force of the pressurizing means or the injection pressure of the molten resin. In particular, the deformed portion corresponding to the corner portion of the resin molded article 202 can be stretched in the multiaxial direction at the same time 27 200941823. Further, as shown in Fig. 18B, the mesh sheet is attached to the inner surface of the resin molded article 102 to constitute (4) a part ΐ (π, the present invention is not limited thereto. The mesh sheet UG may also be associated with the aforementioned mesh sheet _ The sample arrangement is such that the frame body 5 is ιοί. That is, the frame body rhyme can be formed by any of the aspects shown in Fig. 13A to Fig. i3j. Fig. 19 is a cross-sectional view showing the schematic structure of the mesh piece 11〇. The mesh sheet 110 is formed of a resin sheet and has a structure of a laminated metal mesh 113 having an insulating branch sheet iu. The connection between the support sheet 丨ii and the metal mesh sheet J3 can be used as a thermoplastic resin. An adhesive agent 112 as a main raw material. A resin sheet such as a polypropylene resin, a polyethylene resin polyamine resin, a polyester resin, a polyacryl resin, or a polyethylene resin can be used as the support sheet 111. Next, the layer 112 It is preferable to form a material which slightly increases the plasticity by the heat applied during the preforming or when the molten resin is ejected. Specifically, the mesh sheet 110 is heated to about 180 ° C at the time of preforming or when the molten resin is ejected, so Wait for temperature, can be used Further, the layer 112 may be formed to have a slightly thicker thickness of about 30 to 50 μm (usually about 20 μm), and is easily deformed when stretched. 20 The metal mesh 113 is about ΙΟμηη. The metal foil is formed by using a metal film such as copper, nickel, inscription, gold, silver, etc. Further, the metal mesh 113 is formed by a photo-etching method or a printing resistor to form a fine mesh-like pattern. In the case of Fig. 20, first, the metal foil 113a is attached to the surface of the support film 111. Further, the description of the adhesive layer 112 is omitted in Fig. 20, Fig. 28, 200941823. The connection is not shown in the figure. The photoresist film is exposed by a reticle to form a mesh-like pattern of the photoresist film by developing liquid imaging. After the rice engraving liquid is left, the photoresist film is peeled off and removed, thereby forming a metal wire having a pole and a field. The metal mesh of the mesh pattern η)). 5 As just described, when the mesh sheet 110 is deformed at the time of preforming or when the molten resin is ejected, the support sheet 111 and the metal mesh 113 are stretched in the multiaxial direction. However, the resin-made support sheet 111 can also withstand a large deformation. In contrast, the metal mesh U3 cannot withstand large deformation, and when the deformation is more than a certain degree (elongation), there is a problem that the fine mesh is broken. In the mesh sheet 11 () of the second embodiment, this problem can be solved by solving the problem of disconnection at the time of stretching by the mesh pattern of the metal mesh 1 i 3 . Specifically, the mesh pattern of the metal mesh 113 has a unit pattern continuously arranged in the multi-axis direction and a leg portion configured to connect the plurality of unit patterns, and the foot unit and the unit map are present in any of the unit patterns described above. The thin strip of the early pattern between the junctions of the dead " is constructed as a curve. With this configuration, when the stretching force is applied to the metal mesh U3, the entire mesh pattern can be stretched by the degree of bending of the stress relaxation curve portion applied to the thin band constituting the unit pattern. Further, the adhesive layer 112 is formed of a material which is slightly increased in plasticity by the heat applied during preforming or when the molten resin is ejected, and is deformed between the support film 111 and the metal mesh Π3 when stress is applied to the thin strip of the mesh shape of the mesh FIG. The sliding of the relative positions of the two is generated, and the damage of the thin strip of the metal mesh 113 is suppressed. The bandwidth of the thin band constituting the mesh pattern is configured to be about 40 μm or less. When the bandwidth of the ribbon is increased, it is easy to visually recognize the mesh pattern, which is the reason for impairing the pattern a and leafiness of the frame 29 200941823. However, the bandwidth can be made larger than the above range in the case where the design portion is not required. (First configuration example of mesh pattern) Fig. 21A shows a first configuration example of a mesh mesh pattern for a metal mesh of the mesh sheet of Fig. 19. Fig. 21B is a partially enlarged view of the mesh pattern of Fig. 21A. In the following description of the mesh pattern, in order to distinguish the unit pattern from the foot portion, a solid line is used for the unit pattern, and a dotted line is used for the foot portion. The actual mesh pattern has a structure in which all the metal films are continuously connected. As shown in Fig. 21A and Fig. 21B, the unit pattern 121 of the regular hexagon 10 of the mesh pattern 120 is 12 相互 along each other. The axes of the intersections of the 1st direction, the Ya direction, and the Yb direction are continuously arranged. Two leg portions 122 are connected from the apex of one of the unit patterns 121, and are connected to the adjacent other unit patterns 121. Specifically, when the unit pattern 12丨3 of Fig. 21B is taken as an example, two 15 leg portions 122a, 122b, and i22c are provided from the three vertices 124a, 124b, and 124c of the unitary pattern 121a of the regular hexagon. When three vertices are used, when the foot extends from at least three vertices, a mesh pattern connecting the unit figures must be formed on the plane. Thus, the aforementioned foot portion can also be configured to extend from four vertices. The two leg portions i22a extending from the apex 124a are connected to the adjacent unit pattern l2lb and the unit pattern 121c, respectively. Further, the two leg portions 122b extending from the apex 12413 are respectively connected to the adjacent two unit patterns. The thin strip 123 of the unit pattern 121 & exists between the two vertices 124a and 124b of the unit pattern 121a, that is, between the unit pattern 121a and the joint points i24a and 124b of the foot. Figure 22A is the picture of the unit figure before the extension of the mesh piece of Figure 21A. 200941823 5 10 15 20 Large picture, the 22nd picture is a magnified picture of the unit figure after the extension of the mesh piece of the 21st picture. It can be seen that by adopting such a structure, as shown in FIG. 22 and FIG. 22, the thin strip 123 of the unit pattern existing between the joints 124 and 124 of the leg portion 122 and the unit pattern 121 is formed into a nearly straight line, and two joint points are formed. The distance between 124 is extended. Thereby, even if the mesh sheet 110 is deformed and stretched, the fine tape is not broken by the stress applied to the fine strip of the mesh opening > 120, and the metal mesh is not damaged (the second structural example of the mesh pattern). The second structural example of the mesh diagram of the metal mesh for the mesh sheet of Fig. 19 is shown. As shown in Fig. 23, the unit pattern 131 in which the mesh pattern 13 is formed by a circular closed pattern is arranged in a lattice shape along the XI axis and the γι axis ' perpendicularly intersecting each other. Four leg portions 132 are not disposed from the circular unit 131 in the magical axis and the γι axis direction, and are connected to the adjacent four unit patterns 131. When any unit is shaped as an object, the adjacent two legs are perpendicularly intersected, and the thin strip 123 of the unit figure 131 existing between the two connection points 134 and 134 of the unit figure 131 and the foot 132 is configured as a circle. Arc curve. Figure 24 is an enlargement of the unit figure before the extension of the mesh sheet of Fig. 23, and Fig. 24B is an enlargement of the unit figure after the extension of the mesh sheet of Fig. 23, As shown in Figs. 24A and 24B, the curvature of the arc-shaped thin strip existing between the leg portion 132 and the connection point 134 of the unit pattern is reduced, and the distance between the two connection points 134 and 134 is increased. Thereby, when the 1' eye piece is stretched, the metal mesh is destroyed. (Third configuration example of mesh pattern) Fig. 25 shows a network of metal mesh used for the mesh of Fig. 19 31 200941823 The third structural example of the mesh pattern. As shown in Fig. 25, the unit pattern 141 of the closed hexagonal pattern of the mesh pattern 140 is arranged in the shape of the regular hexagon 146 in the XI direction, the Ya direction, and the Yb direction. Each of the unit patterns is connected to the apex of one unit pattern, that is, the apex portion 154 is formed by the apex of one unit, and the other unit 141 ° is present in the unit pattern 141. The two vertices 144, 144, that is, the thin strips 143 of the unit pattern 141 between the unit pattern 141 and the connection point 144 of the leg portion 142 are equivalent to the adjacent two sides of the regular hexagon forming the unit pattern, and are constructed as a © 10 curve. . Fig. 26 is a view showing the state of deformation of the unit figure before and after the stretching of Fig. 25. By adopting the structure shown in Fig. 25, as shown in Fig. 26, it can be seen that the thin strip 143 of the unit pattern existing between the joint portion 144 of the leg portion 142 and the unit pattern is formed into a nearly straight line, and the two connection points 144 are The distance is elongated. 15 (Fourth Configuration Example of Mesh Pattern) Fig. 27 is a view showing a fourth configuration example of the mesh pattern of the metal mesh used for the mesh sheet of Fig. 19. The mesh pattern 150 of Fig. 27 has substantially the same structure as the mesh pattern of Fig. 25, except that the central portion of the hexagon 155 composed of 6 unit patterns has other unit patterns 156. This unit figure 20 156 is set when there is no thin band inside the hexagon 155, because the difference in the visual density of the mesh pattern is large. The unit pattern 156 is connected by any one of the unit patterns 151 and the leg portions 157 constituting the hexagon 155. (Fifth Configuration Example of Mesh Pattern) Fig. 28 shows a mesh of the metal mesh used for the mesh of Fig. 19 32 200941823 The fifth structural example of the graphic. As shown in Fig. 28, the octagonal unit pattern 161 of the mesh pattern 配置6 is arranged in a lattice shape along the X1 axis and the Y1 axis perpendicularly intersecting. Two leg portions 162 are provided for every four vertices of the vertexes of one unit pattern 161, and four unit patterns adjacent to the XI axis and the Y1 axis direction are "connected to each other." In the case of a unit pattern, the thin strip 163 of the unit pattern 161 existing between the unit graph 161 and the two connection points 164 and 164 of the leg portion 162 corresponds to two sides adjacent to the octagon to form a curve. The sixth structural example) Fig. 29 is a diagram showing the structure of the 106 structure of the mesh 10 of the metal mesh of the mesh sheet of Fig. 19, as shown in Fig. 29, the rectangular unit pattern 171 of the mesh pattern 17 is vertical. The intersecting XI axis and the Y1 axis are arranged in a lattice shape. Four legs 172 are provided in the XI axis and the γι axis direction from the respective sides constituting one unit pattern 171. These are adjacent to the XI axis and the γι axis direction. The unit figure 171b is connected. When any one of the unit figures is used, the adjacent two leg portions 15 are connected to the adjacent side of the unit figure, and exist in the two connection points of the unit figure 171 and the foot part 172. The thin strip 173 of the unit figure 171 between 174 and 174 is equivalent to one of the two sides of the vertex of the unit figure. (Structure of the seventh structure of the mesh pattern) The third figure shows the seventh structural example of the mesh 20 pattern of the metal mesh used for the mesh of Fig. 19. As shown in Fig. 30, the mesh The circular unit pattern 181 of the pattern 180 is continuously arranged along the axis of the XI direction, the Ya direction, and the Yb direction of the intersection of 120. The six legs 182 are provided in a state in which the circumference is equally divided from one unit figure, and are connected to The other unit patterns 18ib adjacent to each other are present in the two vertices 184, 184 of the unit pattern 181, that is, the unit map 33. The thin strip 183 of the unit pattern (8) between the 418 and the connection point 184 of the foot 182 is equivalent to the composition. The arc of the unit figure forms a curve. (Eighth configuration example of the mesh pattern) Fig. 31 shows an eighth configuration example of the mesh 5 pattern of the metal mesh used for the mesh of Fig. 19. As shown in Fig. 31 The mesh pattern 19 is formed by a circular closed pattern. The unit pattern 191 is continuously arranged along an axis of 12 〇. intersecting magic direction, ☆ direction, and Yb direction. Each unit pattern i9i is to form a circle 3 of the iodine unit pattern 191. The state of equal division, that is, the angle of mutual formation The state of 120 is connected to the 3_ portion 192. The leg portion 192 is configured to be branched in the direction of the branch, and the end of each branch is connected to the adjacent other unit pattern 191. The connection between the unit pattern 191 and the foot portion 192 exists. The thin strip 193 of the unit pattern 191 between the points 194 is equivalent to the secret of the single _ shape, and constitutes a curve. (Structure Example 9 of the mesh pattern) 15 f32® is a mesh for the metal mesh of the mesh sheet of Fig. 19. The ninth structural example of the figure. As shown in Fig. 32, the mesh pattern is measured such that the unit pattern 11〇1 of the arc combination of the clover leaf is arranged in a lattice shape along the vertical intersecting axis and the axis. From the i-circle unit graphic, four feet ι102 should be set in the direction of the magic axis and the γι axis, which is connected to the adjacent four unit graphics. When any one of the unit figures is used as an object, the adjacent one of the foot portions is the same as the unit figure between the two connection points 11〇4, 1104 of the unit figure 1ΗΠ and the foot part 11〇2. The belt _ is formed in an arc shape. As described above, according to the mesh sheet of the second embodiment, when the stretching force is applied to the metal mesh 113, the degree of bending of the portion of the stress relaxation curve of the 34 200941823 applied to the thin band constituting the unit _ can be made to the entire mesh. The graphics stretch. Further, since the adhesive layer 112 is composed of a material which is slightly plasticized by the heat applied during preforming or when the molten resin is ejected, when the stress is applied to the fine strip of the mesh pattern, the support film ηι and the metal mesh 113 are changed. 5 Ο 10 15 The 20-shaped shape produces a sliding of the relative position of the two, and suppresses the damage of the thin strip of the metal mesh 113. Further, the present invention is not limited to the above embodiment, and can be implemented in other various aspects. Each of the mesh patterns has a structure in which a unit pattern of a closed pattern arranged along a plurality of axes is connected by a foot portion, and may be a lightly elongated shape extending as shown in FIG. 33A and FIG. When stress is applied in the direction of extension, the substrate sheet and the gold wire portion are extended, thereby preventing the cutting of the fine mesh of the metal mesh. Further, by appropriately combining any of the embodiments of the loading embodiment, the respective effects can be exerted. INDUSTRIAL APPLICABILITY The mesh piece of the present invention and the pivotal part of the electronic machine are transparent in the appearance of the 'absorbed (four) shape stress, and the curved surface portion along the curvature is not damaged under the metal mesh, so in the mobile phone terminal Applications such as antennas or electrostatic capacitive touch panels are useful. The present invention has been described with reference to the additional drawings, which are fully described in the preferred embodiments, and various modifications and modifications will be apparent to those skilled in the art. It is to be understood that such variations and modifications can be included therein without departing from the scope of the invention as set forth in the appended claims. 35 200941823 The disclosure of the specification, drawings, and claims of Japanese Patent Application No. 2008-037258, the entire contents of which is incorporated herein by reference. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a perspective view showing a frame appearance structure of a mobile phone terminal having a mesh sheet according to a first embodiment of the present invention, and FIG. 1B is a mobile phone terminal shown in FIG. FIG. 2 is a cross-sectional view showing a schematic structure of a mesh sheet according to a first embodiment of the present invention, and FIG. 3 is a first embodiment of photo-etching. The step chart of the mesh pattern of the form, Fig. 4 is an explanatory view showing the flat portion, the two-dimensional curved surface portion, and the three-dimensional curved surface portion block in the planar view of the resin molded article, 15 5A is attached to the display A graph of the contour direction of the metal mesh of the two-dimensional curved surface and the elongation of the shrinkage direction,

Fig. 5B is a graph showing the elongation of the contour line G attached to the three-dimensional curved surface portion in the contraction direction, and Fig. 6 is a plan view showing the structure of the metal mesh 20 of the mesh sheet according to the first embodiment of the present invention. Fig. 7 is an enlarged plan view showing a region corresponding to the two-dimensional curved surface portion of the metal mesh shown in Fig. 6, and Fig. 8 is an enlarged plan view showing a region corresponding to the three-dimensional curved surface portion of the metal mesh shown in Fig. 6. 200941823 Fig. 9 is an enlarged plan view showing the structure of the connecting portion corresponding to the region of the two-dimensional curved surface portion of the metal mesh shown in Fig. 6 and the region of the three-dimensional curved surface portion, and Fig. 10 is shown in Fig. 6. A plan view of a design example in which a metal mesh is formed with five electrodes for energization, a plan view showing a design example different from that of Fig. 10, and a plan view showing a first modification of a mesh pattern of a metal mesh, β 12B is a plan view showing a second modification of the mesh pattern of the metal mesh, and FIG. 12C is a plan view showing a third modification of the mesh pattern of the metal mesh, and the 12D is a metal mesh. Fig. 13 is a plan view showing a first modification of the casing member of the mobile phone terminal having the mesh sheet according to the first embodiment of the present invention, and Fig. 13 is a plan view showing a fourth modification of the mesh pattern. A cross-sectional view showing a second modification of the housing component of the mobile phone terminal device having the mesh sheet according to the first embodiment of the present invention, and FIG. 13C is a diagram showing the mobile phone terminal having the mesh film of the first embodiment of the present invention. Fig. 13D is a cross-sectional view showing a fourth modification of the casing member of the mobile phone terminal having the mesh sheet according to the first embodiment of the present invention, and Fig. 13 is a cross-sectional view showing a third modification of the casing member of the machine. A cross-sectional view showing a fifth modification of the housing component of the mobile phone terminal device having the mesh sheet according to the first embodiment of the present invention, 37 200941823, FIG. 13F showing a mobile phone having the mesh sheet according to the first embodiment of the present invention. A sectional view of a sixth modification of the housing component of the terminal device, and a thirteenth embodiment shows a section of the seventh modification of the housing component of the mobile phone terminal having the mesh sheet according to the first embodiment of the present invention. FIG. 13 is a cross-sectional view showing an eighth modification of the housing component of the mobile phone terminal having the mesh sheet according to the first embodiment of the present invention, and FIG. 131 is a view showing the mesh according to the first embodiment of the present invention. Fig. 13J is a cross-sectional view showing a ninth modification of the casing member of the mobile phone terminal of the invention, and Fig. 13J shows a tenth modification of the casing member having the mesh sheet of the first embodiment of the present invention. In the cross-sectional view of the example, FIG. 14A shows an enlargement of the mesh pattern of the metal mesh when the arrangement of the thin strip patterns arranged in parallel in the direction of the contour line of the two-dimensional curved surface portion is attached to the two-dimensional curved surface portion. Fig. 14B is an enlarged plan view showing a mesh pattern of a metal mesh in which the arrangement of the thin strip patterns arranged in parallel with the contour line direction of the three-dimensional curved surface portion is equal to that of the equidistant mesh sheet attached to the three-dimensional curved surface portion, The figure shows the area of the two-dimensional curved surface portion of the Ο metal mesh corresponding to the mesh sheet according to the modification of the present invention and the joint portion of the region corresponding to the three-dimensional curved surface portion. An enlarged plan view of the mesh pattern, 20 Fig. 16 is an enlarged plan view showing a mesh pattern corresponding to a region of the three-dimensional curved surface portion of the metal mesh of the mesh sheet according to the modification of the present invention, and Fig. 17 is shown in parallel in the direction of the contour line. An enlarged plan view of a configuration example of a connection portion of a thin strip pattern and a thin strip pattern connecting adjacent thin strip patterns. 38 200941823 18A is a mobile phone terminal using a mesh sheet according to a second embodiment of the present invention. Fig. 18B is a cross-sectional view taken along line A2-A2 of Fig. 18A, and Fig. 19 is a schematic view showing a schematic structure of a mesh sheet according to a second embodiment of the present invention. Fig. 20 is a plan view showing a mesh sheet of a second embodiment of the invention according to a photolithography, and Fig. 21A is a view showing a first configuration example of a mesh pattern for a metal mesh of the mesh sheet of Fig. 19; Fig. 21B is a partial enlarged view of the mesh pattern of Fig. 21A, Fig. 22A is a magnified photograph of the unit figure before the web of Fig. 21A is extended, and Fig. 22B is a single sheet after the web of Fig. 21A is stretched. Enlarged photograph of the bit pattern, Fig. 23 shows the second structure example of the mesh pattern of the metal mesh used for the mesh sheet of Fig. 19, and Fig. 24A is a magnified photograph of the unit pattern before the mesh sheet of Fig. 23 is extended. Fig. 24B is an enlarged photograph of a unit figure after the mesh of the mesh of Fig. 23, and Fig. 25 is a third structural example of the mesh pattern of the metal mesh used for the mesh of Fig. 19, Fig. 26 The state of the deformation before and after the extension of the mesh sheet of Fig. 25 is displayed, 39 200941823 The 27th figure shows the fourth structural example of the mesh pattern of the metal mesh used for the mesh sheet of Fig. 19, and the 28th figure is shown for Fig. 19 shows a fifth structural example of the mesh pattern of the metal mesh of the mesh sheet, and Fig. 29 shows a sixth structural example of the mesh pattern for the metal mesh of the mesh sheet of Fig. 19, and Fig. 30 The seventh structural example showing the mesh pattern of the metal mesh for the mesh sheet of Fig. 19,

Fig. 31 is a view showing an eighth configuration example of the mesh 10 pattern of the metal mesh used for the mesh sheet of Fig. 19, and Fig. 32 is a view showing the ninth structure of the mesh pattern for the metal mesh of the mesh sheet of Fig. 19. For example, Fig. 33A shows a structural example of a mesh pattern extending in a line shape, and Fig. 33B shows a structural example of a mesh pattern extending in a line shape, 15 Fig. 34 is a sticker of a mesh sheet and a resin molded article. State,

Fig. 35A shows a first configuration example of a mesh pattern for a conventional mesh sheet, and Fig. 35B shows a second configuration example of a mesh pattern for a conventional mesh sheet. 20 [Description of main component symbols] 1.. Frame body parts 2. Resin molded product 2A... Resin molded product 3.. Edge portion 4: Transparent window portion 5A... Flat portion 5B.. . Two-dimensional curved surface portion 5C... three-dimensional curved surface portion 40 200941823 6.. . Decorative layer 10 . . . mesh sheet 11 . . . support sheet 12 . . . adhesive 13 .. . metal mesh 13a... metal Box 14: Protective sheet 20 A... Area _ 20B... Area 20C... Area 31.. Thin strip pattern 32... Thin strip pattern '33... Thin strip pattern 34.. With the pattern 41.. energizing electrode 42.. slit Ο 43... slit 44.. wiring 101.. frame member 102.. resin molded article 104... transparent window portion 105.. 110.. .Net film 112.. Next layer 113...Metal mesh 113a...Metal 羯121..Unit graphic 121a...Unit graphic 122.. Foot 122a...Foot 122b...Foot 122c...foot 123...strips 124..connection point 124a...vertex 124b...vertex 124c...vertex 131..unit graphic 132..foot 133...strip 134.. Connection point 140.. .Net pattern 141.. Unit graphic 142.. Foot 143... Thin strip 144.. . Vertex 146.. . 正 hexagon 150.. .Net pattern 41 2009 41823 155·. .Hexagon 156".Unit graphic 157··.Foot 161".Unit graphic 162··.Foot 163..•Small belt 164.·.Connection point 171.·.Unit graphic 172·. Foot 173.·. Thin strip 174.. . Connection point 181··. Unit graphic 181b ... Unit graphic 182.. . Foot 183·· . Thin strip 184·. .Vertex 190·. . 191...unit graphic 192.. foot 193.·. fine tape 200.. mesh head 201.. resin molded article 202.. resin molded product 1100.. mesh pattern 1101.. unit graphic 1101b. ..foot 1102.. .foot 1103.. .strip 1104...connection point A1-A1..·line D1...contour line direction D2...stretching direction

42

Claims (1)

200941823 VII. Patent application scope·· h-type mesh film is a metal mesh composed of a strip of insulating material composed of a resin sheet and laminated with a thin strip, and has at least one dentate=face Any member surface _ while the user, the metal mesh has a fine strip pattern, attached to the portion of the three-dimensional curved surface portion: a circle forming a circle parallel to the contour line of the third surface: And continuously arranging the gaps perpendicularly intersecting with the contour line; and the second thin belt 囷 shape is formed to connect the adjacent first % ′′ and spaced apart from each other in the direction of the contour line Further, in the continuous row, the second thin band pattern existing between the connection point of the thin strip pattern and the second thin strip pattern is a curve. 2. For the mesh piece of the item i of the patent application range, the arrangement pitch of the above-mentioned (4) pattern is 〇.lmm or more and 1 〇. 3. For the mesh film of the first application of the patent scope, the bandwidth of the aforementioned first thin strip pattern and the second thin strip pattern are below 1 〇 μηη. The web of claim 1 of the patent application, wherein the support substrate is bonded to the metal mesh read plasticity adhesive. 5. The mesh sheet of claim 1, wherein the arrangement pitch of the second thin strip patterns is narrowed as approaching an outer edge of the metal mesh. 6. The mesh sheet of claim 1, wherein the bandwidth of the vicinity of the connection point between the second thin strip pattern and the ith thin strip pattern is wider than the other portion 43 200941823. 7. The mesh sheet of claim 1, wherein the first thin strip pattern has a wavy pattern for permitting a reduction in a contour direction of the three-dimensional curved surface portion. 8. The mesh sheet of claim 1, wherein any one of the foregoing members has a two-dimensional curved surface portion, and the metal mesh has: a third thin strip pattern attached to the portion of the two-dimensional curved surface portion to The two-dimensional curved surface portion is formed in a straight line in a state in which the contour lines are parallel, and is continuously arranged in a direction perpendicular to the contour line direction with a gap therebetween; and the fourth thin strip pattern is formed to connect adjacent ones. The third thin strip patterns are continuously arranged with a gap therebetween in the direction of the contour line; and the fourth thin portion exists between the connection points of the third thin strip pattern and the fourth thin strip pattern. The pattern is a curve. 9. The mesh sheet of claim 8 wherein the arrangement pitch of the first fine strip pattern is narrower than the arrangement pitch of the third thin strip pattern. © 10. The mesh sheet of claim 8 wherein the arrangement pitch of the third thin strip pattern is narrowed as it approaches the outer edge of the metal mesh. 11. A mesh sheet which is formed by laminating a metal mesh composed of a thin band on a surface of an insulating supporting substrate made of a resin sheet, and attached to a surface of an arbitrary member having a curved surface portion, the metal mesh a unit pattern continuously arranged in a multi-axis direction and a leg portion configured to connect a plurality of the unit patterns, and in any of the foregoing unit patterns, 44 200941823 exists; adjacent ones are connected to a unit figure The thin band of the unit figure between the points is constructed as a curve. 12. A mesh sheet according to item 11 of the patent application, wherein the fine material constituting the fine strip of the aforementioned metal mesh is structured. 13_If applying for a mesh film of the special township_U item, the aforementioned base material substrate and the aforementioned metal mesh are adhered with a thermoplastic adhesive. 14. If the patent application scope 篦n thermoplastic tree 2Γ. κ, its cap support base (4) Ο 15. For example, the shape and size of the application scope _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The aforementioned foot portion is formed by a thin strip of shape. The unit diagram 17·==16— is connected in the direction of the imaginary axis of the eye, wherein the unit _I is composed of a closed pattern of arcs. Μ:: The mesh of item 16, wherein the aforementioned unit _ shape and at least three vertices from the apex of the aforementioned polygon 19. As claimed in the patent scope. The other three false ones are: the shafts of the shafts are formed in a hexagonal shape along the aforementioned three, and the thin strips of the aforementioned shape are formed. The unit diagram is connected in the direction of the axis. 20. The mesh month of the 19th item of the patent application, wherein the unit graphic system 45-200941823 is composed of a closed pattern containing a circular arc. 21. The mesh sheet of claim 19, wherein the unit pattern is polygonal, and the foot is formed from at least three of the vertices of the polygon. 22. A mesh sheet comprising a metal mesh formed by laminating a surface of an insulating support substrate made of a resin sheet and attached to a surface of any member having a curved surface portion, the metal mesh A foot having the aforementioned thin band of a curve that does not differ. 23. A mesh sheet which is formed by laminating a metal mesh composed of a thin strip with an insulating support substrate made of a resin sheet, and attached to the surface of any member having a curved portion, the metal The net has a unit pattern of closed patterns continuously arranged in one axial direction and a leg portion configured to connect a plurality of the unit patterns. A frame-like component of an electronic device, which is a resin molded article to which a mesh sheet of any one of claims 1 to 23 is attached. 46